KR101587322B1 - Correction apparatus of zigzag line for electrode assembly - Google Patents

Abstract

In order to align the first unit cell and the second unit cell with each other in an electrode assembly in which first unit cells and second unit cells of different sizes are folded through a separator, Correcting device for an electrode assembly, comprising: a main body in which the electrode assembly is disposed; A movable jig provided at one side of the main body and moving the electrode assembly to the other side of the main body by pressing one side of the electrode assembly; And a correction jig provided on the other side of the main body and supporting the other side of the electrode assembly moved by the moving jig to correct the position of the second unit cell.

Description

Technical Field [0001] The present invention relates to an apparatus for correcting skew of an electrode assembly,

The present invention relates to a skew correcting device for an electrode assembly, and more particularly to a skew correcting device for aligning and fixing a first unit cell and a second unit cell stacked in multiple stages in the stack / folding type electrode assembly, To a skew correction device.

Generally, a secondary battery is a battery (EV), a hybrid battery automobile (HEV), a parallel type hybrid battery automobile (a hybrid battery automobile) which is proposed as a solution to solve the air pollution of a conventional gasoline vehicle and a diesel vehicle using fossil fuel PHEV) and the like.

[0003] In such a secondary battery, a middle- or large-sized device such as an automobile is required to have a high output and a large capacity, so that a middle- or large-sized electrode assembly connecting a plurality of unit cells is used. Recently, a small secondary battery usable in an electronic device has been developed and applied.

The electrode assembly for a secondary battery includes a jelly roll type electrode assembly in which one or more cathodes, a separator, and an anode are sequentially stacked and wound, and a unit cell in which a cathode, a separator, and an anode are stacked in order is placed in a long film- There is a stacked & folded type electrode assembly in which a stacked & folding type electrode assembly and a unit cell in which a cathode, a separation membrane, and an anode are stacked in this order are arranged in a long film type separation membrane and then wound in a zigzag direction .

Among the above electrode assemblies, the stack / folding type electrode assemblies are disclosed in Korean Patent Application Laid-Open Nos. 2001-0082058, 2001-0082059, and 2001-0082060.

Meanwhile, as shown in FIG. 1, the stack / folding type electrode assembly according to the related art is manufactured in a stepped manner so as to be embedded in a product which is downsized.

That is, as shown in FIG. 2, the stack / folding type electrode assembly according to the related art includes a first unit cell 10 and a second unit cell 20 having different sizes, And then wound in a single direction.

However, referring to FIG. 2 in the stack / folding type electrode assembly according to the related art, the second unit cell 20 disposed at the lowermost end is wound on the end of the long film type separator 30, One end of the second unit cell 20 is fixed, but the other end is not fixed, so that there is a problem that a skew occurs due to a flow phenomenon.

Korean Patent Publication No. 2001-0082058 Korean Patent Publication No. 2001-0082059 Korean Patent Publication No. 2001-0082060

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a device for correcting meander by aligning a first unit cell and a second unit cell stacked in a multi-stage manner.

According to a first aspect of the present invention, there is provided an electrode assembly in which a first unit cell and a second unit cell of different sizes are folded through a separator, And correcting a position of the second unit cell to align the second unit cells with each other, the apparatus comprising: a main body in which the electrode assembly is disposed; A movable jig provided at one side of the main body and moving the electrode assembly to the other side of the main body by pressing one side of the electrode assembly; And a correction jig provided on the other side of the main body and supporting the other side of the electrode assembly moved by the moving jig to correct the position of the second unit cell.

Wherein the correction jig includes a first correction jig for supporting the other side surface of the second unit cell and a second correction jig which is stacked on the first correction jig and supports the first side of the second unit cell while the first correction jig supports the other side of the second unit cell. And a second correction jig for supporting the other side of the unit cell.

The correction jig may further include a fixing bolt continuously penetrating the first correction jig and the second correction jig and then coupled to the main body.

The correction jig located on the upper side of the first correction jig and the second correction jig has a long hole formed on the upper surface in a direction toward the electrode assembly, and the fixing bolt can penetrate the long hole.

Meanwhile, the second embodiment of the present invention is an apparatus for correcting skew in an electrode assembly for aligning n unit cells in an electrode assembly in which n unit cells having different sizes are folded through a separator, A body to be disposed; A movable jig provided at one side of the main body and moving the electrode assembly to the other side of the main body by pressing one side of the electrode assembly; And a correction jig provided on the other side of the main body and supporting the other side of the electrode assembly moved by the moving jig to correct the position of the unit cell.

The correction jig may include n correction jigs each supporting the other side of the n unit cells of the electrode assembly moved by the moving jig.

The correction jig may further include fixing bolts continuously penetrating the n correction jigs and then coupled to the main body.

At least one of the n correction jigs has a long hole formed on the upper surface in a direction toward the electrode assembly, and the fixing bolt can penetrate the long hole.

The moving jig may be fixed to one side of the main body so as to be slidable to the other side.

The movable jig may further include latching pieces for supporting both sides of the electrode assembly.

And a heating unit for heating the correction jig to indirectly heat the separation film in contact with the correction jig through the correction jig.

The heating unit may include an induction coil provided in the correction jig and a generator for generating heat by applying a current to the induction coil.

The heating unit may heat the correction jig to a temperature of 120 ° C to 170 ° C.

The upper portion of the main body may further include a press jig for supporting the upper surface of the electrode assembly moving by the moving jig.

The press jig may include a lifting piece that is vertically movable on an upper portion of the main body, and a hydraulic device that raises or lowers the lifting piece.

The first and second correction jigs may further include guiding means for moving the second correction jig in a forward or reverse direction toward the electrode assembly.

The guide means may include a guide groove formed on a top surface of the first correction jig in a direction toward the electrode assembly and a guide protrusion formed on a bottom surface of the second correction jig and sliding along the guide groove .

And guiding means for moving one of the correction jigs to the corresponding or opposing direction in the direction toward the electrode assembly may be further provided on mutually corresponding corresponding surfaces of the two correction jigs facing each other among the n correction jigs.

The guide means may include a guide groove formed on a top surface of one of the two correction jigs facing the electrode assembly and a guide protrusion formed on another bottom surface and sliding along the guide groove .

According to the present invention, it is possible to correct the meandering and align the unit cells stacked in a multi-stage by using the skew correcting device, thereby preventing the occurrence of product defects.

1 is a perspective view showing a stack / folding type electrode assembly according to the prior art;
2 is a cross-sectional view of a stacked / folded electrode assembly according to the prior art;
3 is a cross-sectional view illustrating a skew correcting device for an electrode assembly according to a first embodiment of the present invention.
4 is a perspective view illustrating a skew correcting device for an electrode assembly according to a first embodiment of the present invention;
5 is a plan view showing a skew correction device for an electrode assembly according to the first embodiment of the present invention.
6 to 8 are diagrams illustrating a skew correction method for an electrode assembly according to a first embodiment of the present invention.
9 is a perspective view illustrating a correction jig in the skew correction device for an electrode assembly according to the first embodiment of the present invention.
10 is a cross-sectional view illustrating a skew correcting device for an electrode assembly according to a second embodiment of the present invention.

The skew correction device for an electrode assembly according to the present invention is a technique having a structure for supporting and aligning unit cells stacked in a multi-stage, and correcting meander of the electrode assembly to prevent occurrence of defects.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

[Means for correcting skew of an electrode assembly according to the first embodiment of the present invention]

Referring to FIG. 3, the electrode assembly 100 includes a first unit cell 110 and a second unit cell 120 having different sizes, and first and second unit cells 120, And includes a long film type separator 130 wound in a single direction.

For example, the first unit cell 110, the first unit cell 110, the second unit cell 120, the first unit cell 110, and the second unit cell 120 may have a long film- 130, and then wound from one end to the other end of the separation membrane 130 where the first unit cells 110 are disposed.

The first unit cell 110 and the second unit cell 120 are stacked one on top of the other in the first unit cell 110 and the second unit cell 120 in the top and bottom of the electrode assembly 100).

Referring to FIG. 3, the second unit cell 120 disposed at the lowermost end is wound in a state where it is disposed at the other end of the long film type separation membrane 130. At this time, the other end of the separation membrane 130 is not fixed There is a problem that the second unit cell 120 is left or flowed to the outside due to external impact and friction and meandering occurs.

In order to solve such a problem, there is provided a skew correcting device 200 for correcting skew by pressing the first unit cell 110 and the second unit cell 120 separated and stacked in multi-stages.

3 to 5, in the electrode assembly 100 according to the first embodiment of the present invention, the first unit cell 110 and the second unit cell 120 The main unit 210 includes a main body 210 on which the electrode assembly 100 is disposed and a second unit cell 120 on one side of the main assembly 210, A moving jig 220 for moving the electrode assembly 100 to the other side of the main body 210 by pressing the electrode assembly 100 on the other side of the main body 210, And a correction jig 230 for supporting the other side and correcting the position of the second unit cell 120.

The main body 210 is provided with a flat plate having a flat top surface on which the electrode assembly 100 is disposed. The movable jig 220 is provided on one side of the main body 210 and the correction jig 230 is provided on the other side.

The electrode assembly 100 includes a separator 130 disposed between the first unit cell 110 and the second unit cell 120 disposed at an outermost position on the upper surface of the main body 210 so as to face the calibration jig 230 do.

A guide groove 211 extending in the other direction is formed on one side of the upper surface of the main body 210 and the moving jig 220 is slidably coupled to the guide groove 211.

In addition, one of a step, a character and a line (not shown) may be provided on the other side of the upper surface of the main body 100 to indicate the installation position of the correction jig 230, .

The moving jig 220 includes a guide piece 221 which is slidably inserted into the guide groove 110 and a guide piece 221 which is provided on the guide piece 221 and which is disposed in the width direction of the main body 210, (Not shown).

That is, when the supporting piece 222 is pushed to the other side of the main body 210, the movable jig 220 moves together with the supporting piece 222 to the other side of the main body 210, The electrode assembly 100 can be linearly moved as the electrode assembly 221 slides along the guide groove 110.

Here, the guide piece 221 of the movable jig 220 can be removably installed in the guide groove 110, and the movable jig of various sizes according to the length or height of the electrode assembly 100 can be inserted into the guide groove 110 ).

On both sides of the support piece 222, a latch piece 223 extending in the direction of the electrode assembly 100 and supporting the side of the electrode assembly 100 may be provided. (100).

The correction jig 230 includes a first correction jig 231 for supporting the other side of the second unit cell 120 and a second correction jig 231 for being stacked on the first correction jig 231, And a second compensation jig 232 that supports the other side of the first unit cell 110 while supporting the other side of the cell 120. The first compensation jig 231 and the second compensation jig 232, And then fixed by a fixing bolt 233 coupled to the main body 100. [

That is, the correction jig 230 is formed by laminating the first and second correction jigs 231 and 232 having different sizes and then fixing them to the main body 100 through the fixing bolts 233.

3, an elongated hole 232a is formed in the upper surface of the second correction jig 232, which is a correction jig disposed at the uppermost end, in a direction toward the electrode assembly 100, (223) is penetrated.

That is, the second correction jigs 232 can be moved back and forth in the range of the long holes 232a in a state where the fixing bolts 223 are not completely tightened, and the distance between the first and second unit cells 110 and 120 The distance between the first and second correction jigs 231 and 232 is adjusted by adjusting the position of the second correction jig 232.

The second and first unit cells 120 and 110 are simultaneously supported by the first and second correction jigs 231 and 232 and the second unit The first unit cell 110 and the second unit cell 120 can be aligned while the cell 120 is in surface contact with the first correction jig 232 to correct the position.

On the other hand, the maze correction device 200 indirectly heats the separation membrane 130 folded in the first and second unit cells 110 and 120, where the correction jig 230 is supported, by heating the correction jig 230 And may further include a heating unit 240 for heating.

The heating unit 240 includes an induction coil 241 provided in the correction jig 230 and a generator 242 that generates heat by applying a current to the induction coil 241.

Here, it is preferable that the heating unit 240 heats the correction jig 230 at 120 ° C to 170 ° C. That is, the heating unit 240 has a problem that the separation membrane 130 can not be solidified when the calibrating jig 230 is heated to 120 ° C or less. When the calibrating jig 230 is heated to 170 ° C or more There is a problem that the separation membrane 130 is damaged.

That is, the second unit cell 120 disposed at the lowermost stage by the first correction jig 231 and the separation membrane 130 between the first unit cell 110 are pressed to be supported by the second unit cell 120 (See FIG. 8). At this time, as the first correction jig 231 heated by the heating unit 240 indirectly heats the separation membrane 130, the coating material having the adhesive force coated on the separation membrane 130 is melted, The second unit cell 120 is bonded to the separation membrane 130 wound on the second unit cell 120, and the second unit cell 120 disposed at the outermost position is fixed to prevent the occurrence of meandering.

The skew correcting apparatus 200 may further include a press jig 250 for supporting the upper surface of the electrode assembly 100 moved by the moving jig 220 at an upper portion of the main body 100.

The press jig 250 includes a lifting piece 251 that is vertically movable on an upper portion of the main body 100 and a hydraulic device 252 that raises or lowers the lifting piece 251.

That is, the press jig 250 supports the electrode assembly 100 so that the electrode assembly 100 can be stably supported on the correction jig 230, do.

A maze correction method using the skew correction device for an electrode assembly having the above-described structure will now be described.

6, the calibrating jig 230 is heated to a predetermined temperature through the heating unit 240, and then the hydraulic pressure of the press jig 250 is increased to the height of the electrode assembly 100 to be calibrated, The elevating piece 251 is lowered by using the device 252.

7, the electrode assembly 100 is disposed on the upper surface of the main body 100 between the moving jig 220 and the correction jig 230. As shown in Fig. Then, when the movable jig 220 is moved in the direction of the correction jig 230, the movable jig 220 presses one side of the electrode assembly 100 and moves the electrode assembly 100 together.

7, the first and second unit cells 110 and 120 are supported by the correction jig 230. The first and second unit cells 110 and 120 are connected to the first and second unit cells 110 and 120, respectively, The angle of the second unit cell 120 is corrected while being simultaneously supported by the second and first correction jigs 232 and 231 so that the first and second unit cells 110 and 120 are aligned with each other, .

At the same time, the compensation jig 230 indirectly heats the separation membrane 130 folding the first and second unit cells 110 and 120, and the coating material having the adhesive force coated on the separation membrane 130 melts The second unit cell 120 is bonded to the separation membrane 130 folded to the first unit cell 110, and the second unit cell 120 is fixed.

Hereinafter, in describing another embodiment of the skew correction device for an electrode assembly according to the present invention, the same reference numerals are used for the components having the same configuration and functions as those of the above-described embodiment, and redundant description will be omitted.

The skew correction device for an electrode assembly according to the present embodiment has a second correction jig 232 'on the corresponding corresponding surfaces of the first and second correction jigs 231' and 232 ', as shown in FIG. (260) for advancing the electrode assembly (100) toward or away from the electrode assembly (100).

That is, the guide means 260 includes a guide groove 261 formed on the upper surface of the first correction jig 231 'in the direction of the electrode assembly 100, a guide groove 261 formed on the bottom surface of the second correction jig 232' And a guide projection 262 that slides along the groove 261.

Accordingly, the guide unit 260 can linearly move the second correction jig 232 'horizontally, thereby preventing an angle change from occurring in the second correction jig 232'.

Meanwhile, in the present embodiment, the case of correcting the position of the unit cell in the electrode assembly having the two-stage structure composed of the first and second unit cells has been described. Similarly, in the case of the electrode assembly having three or more stages, It may be corrected.

Hereinafter, in describing another embodiment of the present invention, the same reference numerals are used for components having the same configurations and functions as those of the first embodiment described above, and redundant description will be omitted.

[Means of Correcting Apparatus for Electrode Assembly According to Second Embodiment of the Present Invention]

Meanwhile, the electrode assembly is manufactured by folding n unit cells having different sizes through the separator sheet.

For example, as shown in FIG. 10, the electrode assembly 100 folds the first, second and third unit cells 110, 120 and 140 having different sizes through the separator 130, (For reference, each unit cell may be formed by stacking a plurality of cells having the same size.)

The electrode assembly 100 in which the n unit cells are folded through the separator sheet is used to correct skew by the skew correcting device 200 for the electrode assembly to prevent occurrence of defects.

That is, the apparatus for correcting skew in an electrode assembly 200 according to the second embodiment of the present invention is for aligning n unit cells in an electrode assembly 100 in which n unit cells having different sizes are stacked, A movable jig part which is provided on one side of the main body 210 and which presses one side of the electrode assembly 100 to move the electrode assembly 100 to the other side of the main body 210, And a correction jig 230 provided at the other side of the main body 210 and supporting the other side of the electrode assembly 100 moved by the moving jig 220 to correct the position of the unit cell. .

The main body 210 and the moving jig 220 have the same configuration and function as those of the main body 210 and the moving jig 220 of the first embodiment described above.

Here, the correction jig 230 includes n correction jigs each supporting the other side of the n unit cells of the electrode assembly 100 moved by the movement jig 220.

In addition, the correction jig 230 further includes fixing bolts that are connected to the main body 210 after continuously passing the n correction jigs.

Here, the correction jig 230 having a three-stage structure will be described as one embodiment.

As shown in FIG. 10, the correction jig 230 having a three-stage structure includes a third correction jig 234 for supporting the other side of the third unit cell 140, a third correction jig 234 for supporting the other side of the third unit cell 140, And a second correction jig 231 which is stacked on the first correction jig 231 and supports the other side of the first unit cell 110, The first and second correction jigs 231 and 232 are continuously penetrated by the fixing bolts 233 coupled to the main body 210 .

That is, the correction jig 230 having the three-stage structure is configured such that the third correction jig 234, the first correction jig 231, and the second correction jig 232 correspond to the third unit cell 140, (120) and the other side of the first unit cell (110) while correcting meander.

At least one of the n correction jigs has a long hole 232a formed on the upper surface thereof in a direction toward the electrode assembly 100 and the fixing bolt 233 penetrates the long hole 232a.

That is, the correction jig having the elongated hole 232a can be moved in the direction toward the electrode assembly 100, and the adjustment jig can be adjusted to the width of n unit cells.

Therefore, the skew correcting apparatus 200 for an electrode assembly according to the second embodiment of the present invention can easily correct skew of the electrode assembly 100 in which n unit cells are stacked.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: electrode assembly
200: skew correction device 210:
220: moving jig part 230: correction jig part
240: heating part 250: press jig
260: Guide means

Claims (19)

The first unit cell and the second unit cell are formed by folding the first unit cell and the second unit cell through the separator, and the position of the second unit cell is corrected to align the first unit cell and the second unit cell with each other A skew correction device for an electrode assembly,
A main body in which the electrode assembly is disposed;
A movable jig provided at one side of the main body and moving the electrode assembly to the other side of the main body by pressing one side of the electrode assembly; And
And a correction jig provided on the other side of the main body and supporting the other side of the electrode assembly moved by the moving jig to correct the position of the second unit cell. The method according to claim 1,
Wherein the correction jig includes a first correction jig for supporting the other side surface of the second unit cell and a second correction jig which is stacked on the first correction jig and supports the first side of the second unit cell while the first correction jig supports the other side of the second unit cell. And a second correction jig for supporting the other side of the unit cell. The method of claim 2,
Wherein the correction jig further comprises a fixing bolt continuously penetrating the first correction jig and the second correction jig and then coupled to the main body. The method of claim 3,
Wherein the correction jig located on the upper side of the first correction jig and the second correction jig has an elongated hole formed on the upper surface in a direction toward the electrode assembly and the fixing bolt penetrates the elongated hole. Correction device. 1. A skew correcting device for an electrode assembly for aligning n unit cells in an electrode assembly in which n unit cells having different sizes are folded through a separator,
A main body in which the electrode assembly is disposed;
A movable jig provided at one side of the main body and moving the electrode assembly to the other side of the main body by pressing one side of the electrode assembly; And
And a correction jig provided on the other side of the main body and supporting the other side of the electrode assembly moved by the moving jig to correct the position of the unit cell. The method of claim 5,
Wherein the correction jig includes n correction jigs for respectively supporting the other side surfaces of the n unit cells of the electrode assembly moved by the movement jig. The method of claim 6,
Wherein the correction jig further comprises a fixing bolt continuously penetrating the n correction jigs and then coupled to the main body. The method of claim 7,
Wherein at least one of the n correction jigs is formed with a long hole in a direction toward the electrode assembly on an upper surface thereof and the fixing bolt penetrates through the long hole. The method according to claim 1 or 5,
Wherein the moving jig is fixed to one side of the main body so as to be slidable to the other side. The method according to claim 1 or 5,
Wherein the movable jig part is further provided with latching pieces for supporting both sides of the electrode assembly on both sides thereof. The method according to claim 1 or 5,
Further comprising a heating unit for heating the correction jig to indirectly heat the separation film in contact with the correction jig through the correction jig. The method of claim 11,
Wherein the heating unit includes an induction coil provided in the correction jig and a generator for generating heat by applying a current to the induction coil. The method of claim 11,
Wherein the heating unit heats the correction jig to a temperature of 120 ° C to 170 ° C. The method according to claim 1 or 5,
And an upper portion of the main body is further provided with a press jig for supporting an upper surface of the electrode assembly moving by the moving jig. 15. The method of claim 14,
Wherein the press jig includes a lifting piece that is vertically movable on an upper portion of the main body, and a hydraulic device that raises or lowers the lifting piece. The method of claim 2,
Further comprising guiding means for moving the second correction jig in a forward or reverse direction toward the electrode assembly on corresponding surfaces of the first and second correction jigs, Device. 18. The method of claim 16,
The guide means includes a guide groove formed on the upper surface of the first correction jig in a direction toward the electrode assembly and a guide protrusion formed on a bottom surface of the second correction jig and sliding along the guide groove Of the electrode assembly. The method of claim 6,
And guiding means for moving one of the correction jigs to the corresponding or opposing direction in the direction toward the electrode assembly, on the corresponding corresponding surfaces of the two correction jigs facing each other among the n correction jigs Means of correcting skewness for electrode assemblies. 19. The method of claim 18,
The guide means includes a guide groove formed on the upper surface of one of the two correction jigs in a direction toward the electrode assembly and a guide protrusion formed on the other surface of the guide plate and sliding along the guide groove Of the electrode assembly.

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